Regulation of Lymphocytes

Question 1

What is immune regulation?

Answer 1

mmune regulation is control of the immune response to prevent inappropriate reactions

Question 2

Why is immune regulation important?

Answer 2

• Immune regulation is of paramount importance for protection from infection by pathogenic microorganisms and for survival of the infected mammalian organism.
• Immune regulation is achieved by a complex interactive network of immune cells.
• It is required to:
• To avoid excessive lymphocyte activation and tissue damage during normal protective responses against infections
• To prevent inappropriate reactions against self antigens (“tolerance”)
• Failure of control mechanisms is the underlying cause of immune-mediated inflammatory diseases

Question 3

Why is autoimmunity a failure?

Answer 3

•Definition: immune response against self (auto-) antigen = pathologic
–Disorders are often classified under “immune-mediated inflammatory diseases”
•General principles:
–Pathogenesis: Susceptibility genes + environmental triggers
–Systemic or organ-specific

Question 4

What are the features of autoimmune diseases?

Answer 4

•Fundamental problem: imbalance between immune activation and control
–Underlying causative factors: susceptibility genes + environmental influences
–Immune response is inappropriately directed or controlled; effector mechanisms of injury are the same as in normal responses to microbes
•Many immunological diseases are chronic and self-perpetuating

Question 5

What re immune mediated inflammatory diseases?

Answer 5

•Chronic diseases with prominent inflammation, often caused by failure of tolerance or regulation
–Rheumatoid Arthritis, Irritable Bowel Disease, Multiple Sclerosis, psoriasis, many others
–Affect 2-5% of people, incidence increasing
•May result from immune responses against self antigens (autoimmunity) or microbial antigens (Crohn’s disease?)
•May be caused by T cells and antibodies
•May be systemic or organ-specific

Question 6

Why is allergy a failure?

Answer 6

• Harmful immune responses to non-infectious antigens that cause tissue damage and disease
• Can be mediated by antibody (IgE) and mast cells – acute anaphylactic shock
• Or by T cells – delayed type hypersensitivity

Question 7

Why is hypercytokinemia and sepsis a failure?

Answer 7

• Too much immune response
• Often in a positive feedback loop
• Triggered by pathogens entering the wrong compartment (sepsis) or failure to regulate response to correct level

Question 8

What is the 3 signal model in licensing a response?

Answer 8

3 Signals Required
1. Antigen Recognition
2.Co-stimulation
3.Cytokine Release
This licenses the cell to respond

Question 9

What is self limiting responses?

Answer 9

• Immunity comes with a price tag
• Cardinal feature of all immune responses: SELF-LIMITATION
• Manifested by decline of immune responses
• Principal mechanism: immune response eliminates antigen that initiated the response
• => First signal for lymphocyte activation is eliminated

Question 10

What is resolution and repair at the end of a response and chronic inflammation?

Answer 10

1. Resolution – no tissue damage, returns to normal. Phagocytosis of debris by macrophages.
2. Repair - healing with scar tissue and regeneration. Fibroblasts and collagen synthesis
3. Chronic inflammation – active inflammation and attempts to repair damage ongoing

Question 11

What is the definition of immunological tolerance?

Answer 11

specific unresponsiveness to an antigen that is induced by exposure of lymphocytes to that antigen (tolerogen vs immunogen)

Question 12

What is the significance of immunological tolerance?

Answer 12

–All individuals are tolerant of their own antigens (self-tolerance); breakdown of self-tolerance results in autoimmunity
–Therapeutic potential: Inducing tolerance may be exploited to prevent graft rejection, treat autoimmune and allergic diseases

Question 13

What is central tolerance?

Answer 13

-Central tolerance – destroy self-reactive T or B cells before they enter the circulation
-Lymphocytes that recognise self antigens before maturation in the generative organs are eliminated (deletion) or made harmless.
Central tolerance: B cells
•If immature B cells in bone marrow encounter antigen in a form which can crosslink their IgM, apoptosis is triggered

Question 14

What is peripheral tolerance?

Answer 14

• Peripheral tolerance – destroy or control any self reactive T or B cells which do enter the circulation
• Some B cells may change their specificity and some T cells develop into regulatory (suppressive) T lymphocytes

Question 15

How can a T cell developing in the thymus encounter MHC bearing peptides expressed in other parts of the body?

Answer 15

Autoimmune regulator (AIRE
•A specialised transcription factor allows thymic expression of genes that are expressed in peripheral tissues
•promotes self tolerance by allowing the thymic expression of genes from other tissues
Mutations in AIRE result in multi-organ autoimmunity (Autoimmune Polyendocrinopathy Syndrome type 1

Question 16

What is peripheral tolerance in anergy?

Answer 16

• Naive T cells need costimulatory signals in order to become activated
• Most cells lack costimulatory proteins and MHC class II
• If a naive T cell sees it’s MHC/peptide ligand without appropriate costimulatory protein it becomes anergic – i.e. Less likely to be stimulated in future even if co-stimulation is then present

Question 17

What is peripheral tolerance in ignorance?

Answer 17

• Antigen may be present in too low a concentration to reach the threshold for T cell receptor triggering
• Immunologically privileged sites e.g. eye, (brain)
• Compartmentalisation of cells and antigen controls interactions

Question 18

What is peripheral tolerance in antigen induce cell death?

Answer 18

• Activation through the T-cell receptor can result in apoptosis
• Influenced by the nature of the initial T-cell activation events
• In peripheral T cells is often caused by the induction of expression of the death ligand, Fas ligand (CD95 ligand, FasL)

Question 19

What is Th1?

Answer 19

T helper 1 cells (Th1):

-Produce Interferon gamma
-Boost intracellular immune response

Question 20

What is Th2?

Answer 20

T helper 2 cells (Th2):

• Produce IL4, IL-5, IL-13
• Boost anti-multicellular organism response

Question 21

What is Tfh?

Answer 21

Follicular helper T cells (Tfh): 

-Produce IL-21, reside in B cell follicles
w essential for generation of isotype-switched antibodies

Question 22

What is Th17 cells?

Answer 22

Th17 cells:

• secrete IL-17 in autoimmune diseases such as arthritis
• Important for control of bacteria
• NB other Th cells defined by cytokines e.g. Th9 (IL-9) and Th22 (IL-22)

Question 23

What is Treg?

Answer 23

-T cells that regulate the activation or effector functions of other T cells
-natural and induced regulatory T cells
necessary to maintain tolerance to self antigens

Question 24

What are T helpers defined by?

Answer 24

The cytokines they produce and the transcription factors they use

Question 25

What is cross regulation by T cell cytokines?

Answer 25

• T Helper cells produce cytokines (a family of inflammatory mediators).
• Cytokines have diverse actions on a wide range of cells
• Cytokines influence the outcome of the immune response

Question 26

What is T cell mediated regulation?

Answer 26

•A subset of helper T cells known as Treg (T regulatory cells) inhibit other T cells

Question 27

What re regulatory T cells?

Answer 27

•Phenotype: CD4, high IL-2 receptor (CD25), low IL-7 receptor, Foxp3 transcription factor; other markers
•Mechanisms of action: multiple
–secretion of immune-suppressive cytokines (TGFb, IL-10, IL-35),
– inactivation of dendritic cells or responding lymphocytes

Question 28

What does Treg express?

Answer 28

-transcription factor FoxP3
•Mutation in FoxP3 leads to severe and fatal autoimmune disorder - Immune dysregulation, Polyendocrinopathy, Enteropathy X-linked (IPEX) syndrome.
•Mice had similar condition called scurfy – was associated with mutations in FoxP3 (Forkhead box Protein 3)

Question 29

What are the different types of Treg?

Answer 29

• “Natural” regulatory T cells (nTreg)
• Development (in thymus) requires recognition of self antigen during T cell maturation
• Reside in peripheral tissues to prevent harmful reactions against self
• Inducible regulatory T cells (iTreg)
• Develop from mature CD4 T cells that are exposed to antigen in the periphery; no role for thymus
• May be generated in all immune responses, to limit collateral damage
• Tregs reflect the Th subsets seen in T effectors

Question 30

Why is regulation critical in pregnancy?

Answer 30

• Pregnancy as a parasitic infection
• Exposure to new antigen
• Expressed in the context of foreign MHCI
• T regs only exist in mammals

Question 31

What is breaking tolerance?

Answer 31

• Exposure to environmental antigens or self antigens in the context of infections can alter the outcome
• e.g. Anti-Streptococcus pyogenes antibodies can cross react with heart muscle
• Exposure in the wrong place – e.g. peanut oil onto broken skin can induce inflammation
• Exposure + inflammation may trigger lack of tolerance

Question 32

What is IL-10?

Answer 32

• Key anti-inflammatory cytokine
• Multi-functional (pleiotropic)
• Acts on a range of cells
• Blocks pro-inflammatory cytokine synthesis including TNF, IL-6, IL-8, IFNγ
• Downregulates Macrophages
• Viral mimics

Question 33

What is Ig Class Switch?

Answer 33

Class switch under T cell influence (cytokines)

The cytokine depends on the type of T helper cell